Soil Microbial Responses to Potassium-Based Black Liquor from Straw Pulping

Sodium-based black liquor from fiber pulping for papermaking creates challenging waste disposal issues. By substituting NaOH with KOH in the pulping process, the resulting black liquors may be land applied as an environmentally beneficial disposal alternative. Incubation studies examined the effect of KOH-based black liquor on soil pH, electrical conductivity (EC), microbial biomass, CO 2 evolution, and soil enzyme activities in a silt loam soil. Amended soils with black liquor at rates up to 67.2 mL kg - 1 soil, corresponding to 1200 kg K ha - 1 were incubated at 24°C for 60 d. Increasing application rates increased soil pH, indicating that black liquor has potential as a fluid liming material. Soil EC increased with black liquor application rates, but only up to 1.04 dS m - 1 , suggesting that black liquor application at these rates would not cause a salinity problem. Carbon dioxide evolution rate peaked at 2 d of incubation, and then gradually declined until the end of incubation. Metabolic quotient significantly increased with increasing application rates. Soil microbial biomass, CO 2 evolution, dehydrogenase, β-glucosidase, and arylsulfatase activities generally increased with increasing application rates throughout the incubation period. In contrast, increasing soil pH with KOH alone generally decreased CO 2 evolution and soil dehydrogenase, β-glucosidase, and arylsulfatase activities, indicating that this liquor effects in increasing soil microbial activity were possibly attributable to organic constituents contained in this liquor rather than its high pH.

[1]  J. Jones,et al.  Sampling, Handling, and Analyzing Plant Tissue Samples , 2018, SSSA Book Series.

[2]  B. Frey,et al.  Soil respiration and microbial properties in an acid forest soil: effects of wood ash , 2002 .

[3]  Benjamin L Turner,et al.  β-Glucosidase activity in pasture soils , 2002 .

[4]  P. Ambus,et al.  Evaluating effects of sewage sludge and household compost on soil physical, chemical and microbiological properties , 2002 .

[5]  R. Burns,et al.  Comparison of microbial numbers and enzymatic activities in surface soils and subsoils using various techniques , 2002 .

[6]  A. Scopa,et al.  Influence of irrigation with lagooned urban wastewater on chemical and microbiological soil parameters in a citrus orchard under Mediterranean condition. , 2002, The Science of the total environment.

[7]  Run-Cang Sun,et al.  Fractional separation and physico-chemical analysis of lignins from the black liquor of oil palm trunk fibre pulping , 2001 .

[8]  T. R. Sreekrishnan,et al.  Aquatic toxicity from pulp and paper mill effluents: a review , 2001 .

[9]  W. Dick,et al.  Soil acid and alkaline phosphatase activity as pH adjustment indicators , 2000 .

[10]  John F. Kennedy,et al.  Studies on the use of an anaerobic baffled reactor for the continuous anaerobic digestion of pulp and paper mill black liquors , 1999 .

[11]  W. A. Adams,et al.  Changes in microbial biomass and nitrogen turnover in acidic organic soils following liming , 1997 .

[12]  B. R. Smith,et al.  Phosphate Availability and Inorganic Transformation in an Alum Sludge‐Affected Soil , 1997 .

[13]  L. Beyer,et al.  Short-term effects of a secondary paper mill sludge application on soil properties in a Psammentic Haplumbrept under cultivation , 1997 .

[14]  J. Wong,et al.  Effect of an artificial soil mix from coal fly ash and sewage sludge on soil microbial activity , 1996, Biology and Fertility of Soils.

[15]  M. C. Lobo,et al.  Influence of the application of sewage sludges on soil microbial activity , 1996 .

[16]  E. Bååth,et al.  Growth rate and response of bacterial communities to pH in limed and ash treated forest soils , 1994 .

[17]  M. McBride Environmental Chemistry of Soils , 1994 .

[18]  E. Kandeler,et al.  Effect of cattle slurry in grassland on microbial biomass and on activities of various enzymes , 1993, Biology and Fertility of Soils.

[19]  P. Nannipieri,et al.  Effect of liming on some chemical, biochemical, and microbiological properties of acid soils under spruce (Picea abies L.) , 1992, Biology and Fertility of Soils.

[20]  K. Kannan,et al.  Effect of Pulp and Paper Mill Effluent Irrigation on Carbon‐di‐oxide Evolution in Soils , 1990 .

[21]  A. S. Juwarkar,et al.  Impact of Pulp and Paper Mill Wastewater on Crop and Soil , 1987 .

[22]  W. Wiebe,et al.  Arylsulfatase Activity in Salt Marsh Soils , 1979, Applied and environmental microbiology.

[23]  W. Gams Soil enzymes , 1973, Netherlands Journal of Plant Pathology.

[24]  A. Monem Balba,et al.  Management of problem soils in arid ecosystems , 1995 .

[25]  R. Bardgett,et al.  Microbial biomass and activity in a grassland soil amended with different application rates of silage effluent—A laboratory study , 1995 .

[26]  A. Saviozzi,et al.  Mineralization parameters from organic materials added to soil as a function of their chemical composition , 1993 .

[27]  K. Kannan,et al.  Influence of paper mill effluent irrigation on soil enzyme activities , 1990 .

[28]  K. Domsch,et al.  Application of eco-physiological quotients (qCO2 and qD) on microbial biomasses from soils of different cropping histories , 1990 .

[29]  Rebecca W. Hanmer,et al.  Environmental Protection in the United States Pulp, Paper, and Paperboard Industry: An Overview of Regulation of Wastewater Under the U.S. Clean Water Act , 1988 .

[30]  Ming Hung Wong,et al.  Effects of fly ash on soil microbial activity , 1986 .

[31]  J. Parr,et al.  Decomposition of Sewage Sludge Compost in Soil: IV. Effect of Indigenous Salinity 1 , 1983 .

[32]  J. Blackard,et al.  The Influence of Exchangeable Sodium Percentage on Soil Erodibility1 , 1982 .

[33]  K. Domsch,et al.  Mineralization of bacteria and fungi in chloroform-fumigated soils , 1978 .